dsp objective type questions
DESCRIPTION
Digital signal processing objective type questionsTRANSCRIPT
VIGNAN INSTITUTE OF TECHNOLOGY&SCIENCE-DESHMUKHIDEPARTMENT OF ECE
OBJECTIVE TYPE QUESTIONS
UNIT I : INTRODUCTION
1. y (n) = x (2n) [ ]a) Causal b) Non-Causal c) Time invariant d) none
2. x(-n + 2) is obtained using following operation [ ]a) x (-n) is delayed by two samples b) x (-n) is advanced by two samples
c) x (n) is shifted left by two samples d) none
3. The output of anti causal LTI system is [ ]
a) y (n) = ∑K=0
∞
h(k )x (n−k )b) y (n) =
∑K=0
n
h(k )x (n−k )
c) y (n) = ∑−∞
−1
h(k )x (n−k )d) y (n) =
∑−∞
∞
h(k )x (n−k )
4. (n-k) * x (n-k) is equal to [ ]a) x(n-2k) b) x(n-k) c) x(k) d) none
5. Given x(n) the y(n) = x(2n – 6) is [ ]a) x(n) is Compressed by 2 and shifted by 6 b) x(n) is Compressed by 2 and shifted by 3c) x(n) is Expanded by 2 and shifted by 3 d) none
6. Decimation by a factor N is equivalent to [ ]a) Sampling x(t) at intervals ts / N b) Sampling x(t) at intervals tsNc) N fold increase in sampling rate d) none
7. In fractional delay, x(n-M/N), specify the order of operation. [ ]
a) Decimation by N, shift by M, Interpolation by N
b) Shift by M, Decimation by N and Interpolation by N
c) Interpolation by N, Shift by M and Decimation by N
d) All are correct
8. Given g(n) =¿¿, find x(n) = g (n / 2), using linear interpolation [ ]a) 1, 0, 2, 0, 3 b) 1, 1, 2, 2, 3, 3 c) 1, 3/2, 2, 5/2, 3 d) none
9. The h(n) is periodic with period N, x(n) is non periodic with M samples, the output y(n) isa) Periodic with period N b) Periodic with period N+M [ ]
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c) Periodic with period M d) none
10.Determine the non causal system [ ]
a) y (n )=x (n2) b) y (n )= ∑k=−∞
n
x (k )
c) y (n )=x (n )−x(n−1) d) y (n )=nx (n)
11.Two signals x1(n)={1,2,3,4} and x2(n)={4,3,2,1}, then x1(n) + x2(n)= [ ]a) {2,2,2,2} b) {3,2,4,1} c) {1,1,1,1} d) {5,5,5,5}
12.Identify the dynamic system [ ]a) y(n) = ax2(n) b) y(n) = ax(n) c) y(n) = ax2(n) + x(n) d) y(n) = x(n)+x(n-1)
13.Find the ROC of signal x(n)=u(n-2) [ ]a) |z|<1 b) |z|>10 c)|z|<0 d) |z|>1
14.What is the speed improvement factor in calculating 64 – point DFT of a sequence using direct computation and FFT algorithm [
]a) 40.33 b) 30.33 c) 10.33 d) 21.33
15.Find the linear convolution of two sequences x1(n)={1,2} and x2(n)={3,4} [ ]a) {3,10} b) {10,3,8} c) {3,10,8} d) {3,8,10}
16.Number of complex additions required to calculate Radix – 2 FFT is [ ]
a) N−1 b) N2
log2 N c) N log2 N d) N
17 In the design a IIR Digital filter for the conversion of analog filter in to Digital domain the desirable property is [
]a. The axis in the s - plane should map outside the unit circle in the z - Plane b. The Left Half Plane(LHP) of the s - plane should map in to the unit circle in the Z -
Planec. The Left Half Plane(LHP) of the s-plane should map outside the unit circle in the z-
Planed. The Right Half Plane(RHP) of the s-plane should map in to the unit circle in the Z -
Plane
18 The I I R filter design method that overcomes the limitation of applicability to only Lowpass filter and a limited class of bandpass filters is [ ]
a. Approximation of derivatives b. Impulse Invariance c. Bilinear Transformation d. Frequency sampling
19 In the Frequency Transformations of the analog domain the transformation is [ ]
a. Low Pass to Lowpass b. Lowpass to Highpass c. Lowpass to Bandpass d. Lowpass to Bandreject
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20 In the Frequency Transformations of the analog domain the transformation is [ ]
a. Low Pass to Lowpass b. Lowpass to Highpass c. Lowpass to Bandpass d. Lowpass to Bandreject
ANSWERS
1.b 2.b 3.c 4.b 5.c 6.b 7.c 8.a 9 a 10.a11.d 12.c 13.d 14.a 15.c 16.b 17.a 18.c 19.b 20a
UNIT II : DISCRETE FOURIER SERIES:
1. Power signal is
a) Periodic b) aperiodic c) Continuous d) none [ ]
2.
WNnK is
a) e− j2 ΠK
Nb) e
− j2 Π nKc) e
− j2 Π KnN
d) e2 Π Kn
N[ ]
3. When the sequence is circularly shifted in time domain by ‘m’ samples i.e. x((n-m))N then on applying DFT, it is equivalent multiply sequence in frequency domain by
a) ej2 Π Km
Nb) e
− j2 Π KmN
c) e− j2 Π Km
d) e−2 Π Km
N[ ]
4. Multiplication of sequence in time domain, on apply DFT, it corresponds to circular convolution in frequency domain and is given as
[ ]
a) x1(n) x2(n)D⃗FT X1(K) X2(K) b) x1(n) x2(n)D⃗FT X1(K)X2(K)
c) x1(n) * x2(n)D⃗FT X1(K) X2(K) d) x1(n) x2(n)D⃗FT∑K=0
N−1
X1(K)X2(K)5. Linear convolution of two sequences N1 and N2 produces an output sequence of length
a) N1 – N2 +1 b) N1 + N2 –1 c) N1 + N2 +1 d) 2N1 – N2 +1[ ]
6. The basic signal flow graph for butterfly computation of DIT-FFT is ……
7. The Fourier transform of discrete time signal is called ………
8. FFT’s are based on the ……………… of an N-point DFT into successively smaller DFT’s.
9. The Fourier transform of x(n)*h(n) is equal to ………………
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10. Appending zeros to a sequence in order to increase the size or length of the sequence is called ……………
11. In N-point DFT using radix 2 FFT, the decimation is performed …………… times.
12. In 8-point DFT by radix 2 FFT, there are …………… stages of computations with ……………… butterflies per stage.
13. If DFT of x(n) is X(K), then DFT of
WN ln
x(n) is …………………….
14. If xp(n) is periodic sequence with period N and DFS[xp(n)]=xp(k) then DFS[xp(n-m)]
Is …………
15.The magnitude and phase angle of is ……………….. & ………
16.In linearity property DFT[ax1(n)+bx2(n)]= …………….
17.fourier transform gives …………… for an A periodic signal
18.Aperiodic sequence xp(n) with fundamental period N can be represented in Fourier transform as ……………..
19…………………. & ……………… are methods used for circular convolution
20.If X(k) is DFT of a sequence x(n),then DFT of imaginary part of x(n) is ………….
ANSWERS
1.a 2.a 3.b 4.b 5.b 6.b 7.adder 8. dierct computaion
9. DTFT 10.appending
11.n/2 logn
12.3,2
13.twiddle factor
14.dfs
15.iamg & real
16.a1x1(k)+a2x2(k))
17.energy signal
18.dfs 19.using dft and dft
20.real
UNIT III:FAST FOURIER TRANSFORMS:
1. ROC of a causal signal is the exterior of a circle of some radius r. [ ]
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2. ROC of a anti causal signal is the exterior of a circle of some radius r. [ ]
3. ROC of a two sided finite duration frequency is entire Z-plane. [ ]
4. Direct form I required less no.of memory elements as compared to Canonic form.
[ ]5. A linear time invariant system with a system function H(Z) is BIBO stable if and only if the
ROC for H(Z) contains unit circle. [ ]
6. The DFT of sequence can be evaluated as…………
7. In DFT radix-2 FFT … is the name of domain to be decimated
8. DFS is used to find out the spectrum of …………Signals
9. Number of complex multiplication required to calculate Radix-2 FFT is………..
10…………….. is a natural signal
11.A first order LTI system is behaved as…………
12.X(n)*[h(n1)+h(n2)]=………
13.Determine step response of the causal system described by difference equation y(n)=y(n-1)+x(n) is ……….
14.Idft of x(k)=(1,0,1,0) is ………
15…………… is the system function described by the difference equation y[n]=x(n)+2x(n-1)-4x(n-2)+x(n-3)
16. FFT reduces the computation time required to compute ……………
17. For DIT, the input is ………… while the output is in natural order
18………..&……… Are the applications of FFT algorithm
19.The Twiddle factor exponents are a function of the stage index m and is given by …
20.The number of sets or sections of butterflies in each stage is given by ………….
Answers:
1.true 2.false 3.true
4.true 5.false 6.spectrum
7.dif and dit
8.dif n/2logn
10.power
11.recursive system
12.associate alw
13.1n 14.{2,0.5,0,0}
15.causal
16.less 17.bit reversal
18.dit &dif
19.Wnk 20.nlogn
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UNIT IV:REALIZATION OF DIGITAL FILTERS:
1. In direct –form II realization the number of memory locations required is more than that of direct form –I realization [
]
2. An LTI system having system function H(z) is stable if and only if all poles of H(z) are out side the unit circle. [
]
3. Relation ship between x(n) and x(z) is ………………..
4. The inverse Z – transform of z/z-a is an u(n) [ ]
5. Digital filters are not realizable for ideal case [ ]
6.The z-transform of a discrete time signal x(n) is defined as………
7.Relation ship between x(n) and x(z) is ………………..
8.z-transform and roc of the anticausal sequence x(n)={-3,-2,-1,0,1} is ……………
9.A LTI system with the BIBO stable if and only if ROC contains the………….
10.The ROC cannot contain any …………
11.If x(n) is a finite duration ,two sided sequence the ROC is entire Z-plane except at ……….&…………
12.parsevals relation is……….
13.relation between s-plane and z-plane is………..
14……………. Method is used for evaluation of the inverse Z-transform
15. caushy residue theorem is stated as………
16. ROC of a causal signal is the …………. Of a circle of same radius r
17.The ROC must be a ……….region
18.multiplication property of Z-transform is…………..
19 .Application of z-transform are ………..
20.Inverse of x(z)= z/(z-a)^3 is …………….
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Answers:
1.true 2.false 3.true 4.false 5.false 6.x(z) 7.tur
e
8.x(z) 9.r=1 10.pol
es
11.cz
=0
and 1
12.magnit
ude square
function
13.mapp
ing
14.resid
ue
theore
m
15.multi
ple
poles
16.grea
ter than
17.u
nit
circl
e
18.X(z)h
(z)
19.casc
de and
df-1
20.n2
an
UNIT V:IIR DIGITAL FILTERS:
1. The magnitude response of the following filter decreases monotonically as frequency
increases [
]
a) Butterworth Filter b.) Chebyshev type – 1 c.) Chebyshev type – 2 d) FIR Filter
2. The transition band is more in [ ]
a) Butterworth Filter b) Chebyshev type - 1 c) Chebyshev type - 2 d) FIR Filter
3. The poles of Butterworth filter lies on [ ]
a) sphere b) circle c) ellipse d) parabola
4. I I R digital filters are of the following nature [ ]
a) Recursive b) Non Recursive c) Reversive d) Non Reversive
5. In I I R digital filter the present output depends on [ ]
a) Present and previous Inputs only b) Present input and previous outputs only
c) Present input only d) Present Input, Previous input and output
6. Which of the following is best suited for I I R filter when compared with the FIR filter
a) Lower sidelobes in stopband b) Higher Sidelobes in stopband [ ]
c) Lower sidelobes in Passband d) No sidelobes in stopband
7. In the case of I I R filter which of the following is true if the phase distortion is tolerable
a) More parameters for design b) More memory requirement [ ]
c) Lower computational Complexity d) Higher computational complexity
8. A causal and stable I I R filter has [ ]
a) Linear phase b) No Linear phase c) Linear amplitude d) No Amplitude
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9. Neither the Impulse response nor the phase response of the analog filter is Preserved in the
digital filter in the following method [
]
a) The method of mapping of differentials b) Impulse invariant method
c) Bilinear transformation d) Matched Z - transformation technique
10. Out of the given I I R filters the following filter is the efficient one [ ]
a) Circular filter b) Elliptical filter c) Rectangular filter d) Chebyshev filter
11. What is the disadvantage of impulse invariant method [ ]
a) Aliasing b) one to one mapping c) anti aliasing d) warping
12. Which of the I I R Filter design method is antialiasing method? [ ]
a) The method of mapping of differentials b) Impulse invariant method
c) Bilinear transformation d) Matched Z - transformation
technique
13. The nonlinear relation between the analog and digital frequencies is called [ ]
a) aliasing b) warping c) prewarping d) antialiasing
14. The most common technique for the design of I I R Digital filter is [ ]
a) Direct Method b) In direct method c) Recursive method d) non recursive
method
15. In the design a IIR Digital filter for the conversion of analog filter in to Digital domain the
desirable property is [
]
a)The axis in the s - plane should map outside the unit circle in the z - Plane
b)The Left Half Plane(LHP) of the s - plane should map in to the unit circle in the Z - Plane
c.) The Left Half Plane(LHP) of the s-plane should map outside the unit circle in the z-Plane
d.) The Right Half Plane(RHP) of the s-plane should map in to the unit circle in the Z - Plane
16. The I I R filter design method that overcomes the limitation of applicability to only Lowpass
filter and a limited class of bandpass filters is [ ]
a) Approximation of derivatives b) Impulse Invariance
c) Bilinear Transformation d) Frequency sampling
17. In the Frequency Transformations of the analog domain the transformation is [ ]
a) Low Pass to Lowpass b) Lowpass to Highpass
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c) Lowpass to Bandpass d) Lowpass to Bandreject
18. Frequency Transformations in the Analog domain and in the Digital domain will yield
a) Same Results c) Different results for Bilinear Transformation [ ]
b) Different Results d) Different Results except Bilinear Transformation
19. In the Impulse Invariance method the mapping from analog frequency Ω to the digital
frequency is
[ ]
a) one to one b) one to many c) many to many d) many to one
20. A discrete impulse function is applied to the inputs of four different filters. The output
sequences of these filters are listed below. Which one of these filters has a pole outside the
unit circle?
[ ]
a) {1, 2, 3, 4, 5, 6, 0, 0, 0, ..... } b) {1, - 1, 1, - 1, 1, - 1, ..... }
c) {1, 2, 4, 8, 16, ..... } d) {1, 0.5, 0.25, 0.125, ..... }
21. A discrete impulse function is applied to the inputs of four different filters. For each of the
output sequences that follow, state whether the filter is nonrecursive. [
]
a) {1, 2, 3, 4, 5, 6, 0, 0, 0 ..... } b) {1, -1, 1, -1, 1, -1 ..... }
c) {1, 2, 4, 8, 16 ..... } d) {1, 0.5, 0.25, 0.125, ..... }
22. A filter has the difference equation: y(nt-2T)+x(nT)+x(nT-T). What traditional filter type
best describes this filter? [
]
a) Integrator b) differentiator c) subtractor d) multiplier
ANSWERS
1.a 2.a 3.b 4.a 5.d 6.a 7.c 8.b 9.c 10.b 11.a
12.c 13.b 14.b 15.b 16.b 17.b 18.d 19.d 20.c 21.a 22.a
UNIT VI: FIR DIGITAL FILTERS :
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1. The Linear Phase symmetric Impulse response having even number of samples cannot be
used to design the following filter [
]
a) Lowpass b) Highpass c) Bandpass d) Bandstop
2. The following filter is always stable [ ]
a) Butterworth filter b) Chebyshev filter c) II R filter d) FIR filter
3. Which of the filter can be realized in both recursive and non recursive structure?
a) Butterworth filter b) Chebyshev filter c) II R filter d) FIR filter [ ]
4. Which filter is free of Limit cycle oscillations when implemented on a finite word length
digital system [ ]
a) Butterworth filter b) Chebyshev filter c) II R filter d) FIR filter
5. In which filter the memory requirement and execution time are very high [ ]
a) Butterworth filter b) Chebyshev filter c) II R filter d) FIR filter
6. Which of the following window is used instead of Hanning window for the same main lobe
width [ ]
a) Rectangular window b) Triangular window
c) Hamming window d) Kaiser Window
7. The cascaded form of realization is used [ ]
a) When complex poles with absolute magnitude less than one
b) When complex poles with absolute magnitude greater than one
c) When complex zeros with absolute magnitude less than one
d) When complex zeros with absolute magnitude greater than one
8. In the following window the amplitude of the side lobes is unaffected by the length of the
window [
]
a) Rectangular window b) Triangular window
c) Hamming window d) Kaiser Window
9. In which of the following windows the transition region is more and stop-band attenuation
is less [ ]
a) Rectangular window b) Triangular window
c) Hamming window d) Kaiser Window
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10. The mainlobe width of the Hanning window is twice that of [ ]
a) Rectangular window b) Triangular window
c) Hamming window d) Kaiser window
11. The Gibbs oscillations are due to [ ]
a) Abrupt truncation of the Fourier series b) No truncation of the Fourier series
c) Abrupt termination of the Fourier transform d) Slow termination of the Fourier series
12. One of the desirable characteristic of the window is that the central lobe of the frequency
response of the window should contain
[ ]
a) Most of the energy and should be narrow
b) Lowest energy and should be narrow
c) Most of the energy and should be broad
d) Lowest of the energy and should be broad
13. In a window the desirable characteristic is that the sidelobes of the frequency response
should
a) Increase in energy rapidly as tends to [ ]
b) Decrease in energy rapidly as tends to
c) Increase in frequency response
d) Contain most of the energy and should be narrow
14. Which window has the advantage of flexibility of sidelobe level and N ? [ ]
a) Rectangular window b) Triangular window
c) Hamming window d) Kaiser window
15. In which filter closed form design equations exist [ ]
a) FIR Filter b) II R Filter c) Butterworth d) Chebyshev
16. In which filter all the poles are located at origin [ ]
a) FIR Filter b) II R Filter c) Butterworth d) Chebyshev
17. In which filter high selectivity can be achieved by using higher order [
]
a) FIR Filter b) II R Filter c) Butterworth d) Chebyshev
18. Which filter has less flexibility specially for obtaining non-standard frequency response?
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a) FIR Filter b) II R Filter c) Butterworth d) Chebyshev [ ]
19. Which filter design methods are iterative procedures that require powerful Computational
facilities for Implementation [
]
a) FIR Filter b) II R Filter c) Butterworth d) Chebyshev
20. Frequency sampling method is suitable for [ ]
a) Broad band frequency selective filters b) Narrow band frequency selective filters
b) Passband frequency selective filters d) Stopband frequency selective filters
21. The frequency sample method can be improved by [ ]
a) Introducing the stopband b) Introducing ripples
c) Introducing the transition samples d) Eliminating the transition samples
22. In the frequency sampling method the Peak sidelobe level can be reduced by
a) Increasing Transition width b) Decreasing Transition width [ ]
c) Increasing Ripples d) Decreasing Ripples
23. In which of the following filter the errors due to round off noise are more [ ]
a) FIR Filter b) II R Filter c) Butterworth d) Chebyshev
24. In which of the following filter the poles are placed any where inside the Unit circle and not
always stable is [ ]
a) FIR Filter b) II R Filter c) Butterworth d) Chebyshev
ANSWERS
1.b 2.d 3.d 4.d 5.d 6.c 7.c 8.a 9.b 10.a 11.a 12.a
13.b 14.d 15.b 16.a 17.a 18.b 19.a 20.b 21.c 22.a 23.b 24.b
UNIT VII: MULTIRATE DIGITAL SIGNAL PROCESSING:
1. When the input rate Fx is greater than the output rate Fy in the sampling rate Conversion the Lowpass filter acts as a) anti - aliasing pre filter b) anti - imaging post filter c) anti - aliasing post filter d) anti - imaging pre filter
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2. When the input rate Fx is greater than the output rate Fy in the sampling rate Conversion the Lowpass filter removes the spectral replicas at multiples of a)Fx b) I Fx c) Fy d) I Fy
3. An Increase in the sampling rate by an integer factor I can be accomplished by interpolating a) I - 1 samples between successive values b) I - 1 samples between alternate values c) I - 2 samples between successive values d) I - 2 samples between alternate values
4. For the sampling rate conversion process by a factor of the processes are a) First Interpolation and then decimation b) First Decimation and then Interpolation c) First Extrapolation and then Decimation d) First Decimation and then Extrapolation
5. In the Sampling rate conversion both the up sampling filter and down sampling filters can be replaced with a single a) Highpass filter b) Bandpass filter c) Lowpass filter d) Bandstop
6. Sampling rate conversion by any rational factor can be obtained with a) only decimation b) only interpolation c) only extrapolation d) decimation and Interpolation
7. The Process of sampling rate conversion is a) Only Resampling b) Only Reconstruction c) Resampling after Reconstruction d) Reconstruction after Resampling
8. In the decimation process, the down sampling operation in combination with filtering on a linear time invariant system results in a) linear time invariant b) Linear time variant c) Non Linear time invariant d) Nonlinear time - invaraint
9. The Implementation of sampling rate conversion requires the use of the following Filter a) Linear time - invariant filter b) Linear time - variant filter c) Non Linear time - Invariant filter d) Non Linear time - variant filter
10. In the Down sampling process the frequency range of the input signal a) stretches by a factor D b) compresses by a factor D c) stretches by a factor 2D d) compresses by a factor 2D
11. Which of the following is not an application of multirate Digital signal processing? a) Digital filter banks b) Subband coding c) Broadband filters d) Transmultiplexers
12. The CIC filter structure is a) Combinational Impulse Cascade b) Cascade Integrator Comb c) Cascade Impulse Comb d) Combinational Integarted Impulse
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13. For the development of Polyphase decimator which of the following is used a) Commutator b) Decommutator c) Communicator d) Transmitter
14. For the efficient software Implementation of Rational sampling rate conversion the following filter is used a) II R filter b) FIR filter c) Butterworth filter d) Chebyshev filter
15. When the output rate Fy is greater than the output rate Fx in the sampling rate Conversion the Lowpass filter removes the spectral replicas at multiples of a) Fx b) I Fx c) Fy d) I Fy
16. When the output rate Fy is greater than the output rate Fx in the sampling rate Conversion the Lowpass filter acts as a) anti - aliasing prefilter b) anti - imaging postfilter c) anti - aliasing postfilter d) anti - imaging prefilter
17. Polyphase filter Structures are used for a) Up sampling b) Down sampling c) Sampling Rate Conversion d) anti - aliasing
18. The Polyphase filter structures are suitable for a) FIR Filters b) II R Filter c) FIR and II R filters d) analog filter
19. The order of the sampling rate converter and a linear time - invariant system can be interchanged by changing a) Upsampling rate b) Down sapling rate c) Filter system function d) Input function
20. Polyphase filter Structures are used for a) Up sampling b) Down sampling c) Sampling Rate Conversion d) anti - aliasing
ANSWERS
1.a 2.c 3.a 4.a 5.c 6.d 7.c 8.b 9. b 10.a
11.c 12b 13a 14.b 15.a 16.b 17.c 18.c 19.c 20.c
UNIT VIII:FINITE WORD LENGTH EFFECTS:
1. Conversion of a continuous time signal into a digital value produces ……………..
2. Errors arising from quantization are …………. & ……………
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3. In two’s compliment numbers negative number is obtained by ………….. all the bits of the
positive number and adding one to……………….
4. Common methods of quantization are ………….&…………..
5. From the assumptions of the effects of rounding in digital filter error sequence e(N) is …………..
signal
6. Quantization step size …………….
7. Three quantization errors in finite word length registers are………………….
8. …………… realization is less sensitive to process of quantization
9. Methods used to prevent over flow are………..
10.A/D converter output is sum of …………&……………
11.for two’s complement truncation p(e)=…………
12.The quantization error is given by……………..
13.in one’s compliment representation the error for truncation of positive values of the mantissa
is…………
14.(11)2*11(2)=…………
15.the finite coefficients are computed to ……………….. in the theory
16.the quantization error leads to………..
17……………. Occurs as a result of the quantization effects in multiplication
18.The amplitudes of the outputs during limit cycles are confined to range of values called
as…………
19.when a stable IIR digital filter is excited by a finite input sequence the output will ideally decay
to…………..
20.Application of DFT in Dsp are…………
ANSWERS
1.Input quantization error
2.Round off ,Limit cycle oscillations
3.complementing ,least significant bit
4.truncation,rounding
5.white noise
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6.(range of noise)/(no. of quantization levels)
7.i/p quantization errors, coefficient quantization errors, product quantization errors
8.cascade form 9.saturation arthimatic,scaling
10.input signal x(n),error signal
11.p(e)=1/q 12.e(N)=x.q(n)-x(n) 13.0>=mt-m>-2^b
14.(1001)2 15.infinite precision
16.instability 17.limit cycles 18.dead band 19.zero 20spectral analysis and digital filtering